RU2473849C2 - Solar energy concentrator - Google Patents

Abstract

FIELD: power engineering.

SUBSTANCE: device (1) is arranged as capable of absorption, of mainly thermal and/or light energy, arising from received solar beams ("B1", "B2"), and having a reflector (2) that reflects solar beams and is sent towards solar beams, and a facility (3) to absorb thermal and/or light energy, related to the reflector (2), besides, the reflector (2) and the specified facility (3) for absorption of thermal and/or light energy are covered with a transparent protection (4), besides, the surface (2a) of the reflector in the specified reflector is formed from thin and easily folding material, besides, the reflector (2) and its surface (2a) of the reflector are made as capable of interaction with multiple supporting elements (2b), distributed along the reflector (2) aligned in length or longitudinally stretched ("L") and arranged under its surface (2a) of the reflector, and also aligned perpendicularly, or in all cases, substantially perpendicularly to the longitudinal stretching ("L") to make it possible for the reflector (2) and/or surface (2a) of the reflector, depending on impact of temperature, to be capable of deformation in the area of elastic deformations, applied to the chosen shape and/or material selection, nevertheless, at the same time keeping the profile of stable shape. In addition to lower supporting elements (2b) there are additional supporting elements (5, 5a, 5b). Besides, the latter supporting elements are made in the form of reflector springs (5) and are made as capable of resting against a reflecting surface of the reflector (2) or its surface (2a) of the reflector. Besides, each of additional supporting elements or springs (5) of the reflector is arranged in the form of a thin wire or a thin strip in order to provide for displacement or shift of the reflector and/or its surface of the reflector, depending on temperature variations, at the same time saving the same shape of the surface reflector (2a), reflecting solar beams.

EFFECT: invention shall provide for displacement or shift of reflector surface and its holder as temperature changes, while keeping reflector shape.

1 cl, 5 dwg

Description

FIELD OF THE INVENTION

The present invention generally relates to a device which is referred to as a “solar energy concentrator”.

More specifically, the present invention contemplates providing a device and assembly which, in a collector arranged in rows and columns, will be able to use part of the heat and / or light energy carried by the sun.

Accordingly, the present invention even more specifically implies the development of a device configured to absorb mainly thermal energy arising from the received sunlight, and having a reflector reflecting the sun's rays, a reflector directed towards the sun's rays, and means for absorbing thermal and / or light energy related to the reflector.

Said reflector and said absorbent means should advantageously have the ability to be covered with a shield that is transparent to sunlight and light, said reflector and its reflector surface being formed from a thin and easily bendable material and have a light reflecting reflector surface prepared to provide a high reflectance .

BACKGROUND OF THE INVENTION

Methods, devices, and structures related to the aforementioned technical field and essence are known previously in many different embodiments.

In this regard, by means of mathematical calculations, the possibility of creating a curved surface of the reflector is known, which makes it possible for the incident sunlight to converge at the focal point in order to provide an increased concentration of heat there.

In solar cells and / or solar energy concentrators having a longitudinally or longitudinally oriented strike, it is known to allow focal points to form a focal segment or line for absorbing heat by an elongated means, such as a mixture of water and glycol.

Various designs are also known for the heat-absorbing agent used, in which, on the one hand, it was possible to provide the generated heat in the form of sunlight in the heated water stream and, on the other hand, it was possible to convert the heat in the form of solar rays into electrical energy when using multiple optoelectronic converters.

Optoelectronic converters are found in various embodiments and have recently become the subject of intensive development in order to provide an increase in their efficiency.

It is also known in the art to install solar cells and / or solar power concentrators on rotatable substrates so that, by means of various electrical devices and control equipment, the solar cell or solar power concentrator is constantly rotated towards the incident sunlight and to tilt or tilt the sun the element and its reflecting surface perpendicular to the incident rays of sunlight.

As an additional example of the prior art and the technical field to which the invention relates, a device can be mentioned which is capable of absorbing mainly the heat arising from the obtained sun rays and having a reflecting surface of the reflector directed towards the sun rays and heat and / or light energy absorption means related to the reflector, said reflector and said heat and / or light energy absorption means being n kryvaemymi protection, transparent to sunlight and resistant to mechanical abrasion and / or damage, wherein said reflector and, in particular, the surface of the reflector should be formed from a thin and easily bendable material.

Also related to the prior art is a solar energy concentrator box depicted in Sweden's Utility Model No. 79 604 based on the Swedish Utility Model Application No. 2007/0008.

Also to the prior art is the content of the following patent publications:

US-4 326 773-A,

US-2002/0 124 842-A1 and

US-4 571 812-A.

In the publication of US-4 326 773-A, a cylindrical parabolic reflector is depicted and described to ensure that the incident sunlight is focused on the focal axis related to the said cylinder.

Figure 1 in the aforementioned patent publication shows a conventional reflector made of sheet metal material and made monoblock.

It is mentioned here that the reflecting surface (1) can be subject to deformation under the influence of mechanical and temperature-dependent forces, despite the fact that a radially oriented means (2) for providing rigidity and a peripherally oriented means (3) were inserted to provide resistance to the mentioned forces providing rigidity.

More specifically, it is shown that the pipe (4) attached to the focal axis is clamped by a support means (5) acting against a radially oriented means (2) to provide rigidity.

Figure 2 in the aforementioned patent publication shows and describes a module, which, in coordination with additional modules, must have the ability to form a complete solar energy concentrator.

Here, the concave surface is formed from polished to a shine or machined aluminum sheet having a thickness of 1 mm, while the other five parts of the device (6) are made of more rigid materials.

Moreover, it is shown that two aluminum pipes (7, 7 ') have dimensions of internal and external diameters equal to 18/20 mm in diameter, and are also embedded in plastic foam.

The end regions (8, 8 ') of the pipes (7, 7') are made with the ability to protrude beyond the panel at a distance of 25 mm and have an external diameter of 18 mm.

The narrower end regions (8, 8 ') should be able to press-fit with the end regions (8a, 8a') of the uniform pipes or beams of the adjacent panel (6a).

The aluminum sheet is angled along its opposite end regions to provide a stiffening effect.

In the publication of the application US-2002/0 124 842-A1, a collecting unit for thermal rays is shown and described.

Said assembly has a containing element or box (1) having an open top and a number of heat-reflecting modules (2) located next to each other inside the box (1).

In each module, there is provided a means (3) for absorbing heat in the form of a pipe, as well as a reflector (4) to ensure reflection of thermal rays to the means (3).

Means (3) are matched to each other by means of connecting pipes (3a).

The areas of the open end of the box (1) must be covered with a variety of glass elements or other transparent material (5) in order to create thermal insulation of the inner space of the box (1).

More specifically, the publication of the patent shows that the reflector (4) must be pressed by the pressure plates and should be formed with a central edge (42b).

Here, moreover, it is shown that the reflector (42) must have a predetermined width so that when the reflector is pressed into its recess (41a), its two edges are in interaction with the corresponding parts (41b), and the reflector sheet will take the selected position due to its own ability to bend.

US-4 571 812-A discloses and describes a solar energy concentrator having a thin reflector sheet and having a gloss-polished or machined reflective surface, and this sheet should be supported by the rigid structure depicted in FIG. 5, including two elongated parts (14, 16), having many supporting and reinforcing parts (18), which are given a shape in which in all cases their inner surfaces (20) have a shape that corresponds to a parabolic shape, which should have the corresponding ma terial reflector.

SUMMARY OF THE INVENTION

Technical problem

If you pay attention to the fact that technical considerations that a specialist in the relevant field of technology must take into account in order to be able to present a solution to one or more of the technical problems that arise, are, on the one hand, at the beginning a necessary understanding of the measures and / or sequence of measures, which must be undertaken, and, on the other hand, by the choice of means that are / are necessary, the subsequent technical problems, therefore, will relate to the creation of this subject scope of invention.

Therefore, in view of the prior art, as described above, as a technical problem, the significance of which, the advantages associated with it, and / or technical measures required to solve which, it should be understood the possibility of providing a complete design that will have light weight, in a device configured to absorb mainly thermal and / or light energy arising from the received sunlight, and having a reflector reflecting the sun's rays, directed towards the sun's rays, and a means of absorbing thermal and / or light energy related to the reflector, wherein said reflector and said absorbing means must be coated with a transparent protection, in addition, said reflector and its reflector surface must be formed from a thin and easily bendable material, and in other respects having the characteristics defined in the preamble of claim 1 of the claims.

Therefore, in view of the prior art, as described above, as a technical problem of the measure, further ensuring the reduction of the necessary and required contents of the material of the solar cell and the solar energy concentrator as a whole should be understood.

Therefore, in view of the prior art, as described above, as a technical problem of the measure, it should be understood that it is possible to provide a limited space requirement for a solar cell and / or solar energy concentrator with the same energy release as from a conventionally designed solar cell or solar energy concentrator.

The technical problem is to enable said reflector to be capable of interacting with a plurality of supporting elements, in the following description called “reflector springs” distributed along the lengthwise or longitudinal strike of said reflector and across the surface of the reflector oriented perpendicularly, or in all cases, essentially perpendicular to said longitudinal strike in order, therefore, to allow said the reflector and its reflector surface, depending on the effect of temperature, be able to deform in the region of elastic deformations applied to the selected shape and / or selection of material, however, while maintaining a stable shape profile.

The technical problem of the measure is to enable said supporting elements or reflector springs to have a curved shape, wherein one of the same or selected reflector springs is made in the form of a thin wire or thin strip so that, in this connection, it is able to provide movement or displacement of the reflector surface and its holder, related to the occurring changes in temperature, while maintaining the same shape of the reflector surface or surfaces of the reflector, reflecting x sun rays.

The technical problem is to enable said reflector springs to be fixed and bent into a curved shape in order to be able to maintain the reflector surface shape within an optimal shape suitable for reflecting sunlight to a means of absorbing thermal and / or light energy.

The technical problem lies in providing the ability to compensate for occurring temperature changes that cause the displacement or displacement of the reflector and, basically, its reflector surface in the longitudinal direction and strike.

A technical problem is to provide for supporting the reflector and / or the surface of the reflector and the holder or its supporting part longitudinal edges so that they follow a straight line, such as parallel lines, and also in order to support said transparent protection, such as glass or another cover plate using a box-shaped container, a so-called ribbed box.

The technical problem is to enable the longitudinal edges of the ribbed box to have one or more grooves configured to interact with the corresponding longitudinal edges.

A technical problem is the manufacture of such a ribbed box of lightweight material, such as wood material and / or composite material.

The technical problem lies in the implementation of the aforementioned reflector springs with the possibility of both close attachment to and support of the surface of the reflector, and attachment as support for the said means of absorption of thermal and / or light energy.

The technical problem is the choice of the concentration coefficient specified for the reflector, and specifically for the surface of the reflector, to be selected in the appropriate range, such as a range of coefficient values from 4.0 to 3.0.

The technical problem is the orientation of the reflector, including its surface of the reflector, and the said means of absorbing thermal and / or light energy to be mutually adapted so that the incident sunlight and rays of sunlight at low solstice can be focused in the direction of one edge of the means, as well as at high solstices, they could be focused in the direction of the other edge of the mentioned means and vice versa.

The technical problem is to enable said ribbed box to be fixedly attached to a fixed base.

The technical problem is to enable the curved profile of the reflecting surface in the cross section and along the reflector springs to be able to perform the function corresponding to the “CPC” (paraboloric focon) function.

The technical problem is to provide a longitudinal or lengthwise oriented support profile next to one of the lengthwise oriented edges of the reflector and / or the surface of the reflector, directed from the means of absorption of thermal and / or light energy.

The technical problem is to enable each of said reflector springs to have an inclined portion or inclined projection located adjacent to or in the vicinity of said supporting profile.

The technical problem is to allow said reflector surface and said holder and / or supporting part to be formed integrally with each other.

The technical problem is to enable said reflector springs to be able to rest on a reflective surface and its holder with a variable reference pressure.

The technical problem is to enable the middle or lower part related to the reflector spring to be capable of absorbing high pressure or pressure greater than at the end parts of the reflector springs.

The technical problem is to enable the end parts to be adapted to create a small or even zero reference pressure.

Decision

In this regard, the present invention originates from the prior art described in the introduction, and is based on a device configured to absorb mainly thermal and / or light energy arising from the received sunlight, and having a reflector reflecting the sun's rays, directed towards sunlight, and means for absorbing thermal and / or light energy related to the reflector, said reflector and said means for absorbing thermal and / or light energy being discontinuity transparent protection, said reflector surface and its holder or support part are formed from a thin and easily bendable material.

Moreover, the invention is based on the fact that said reflector and, basically, its surface of the reflector should be configured to interact with a plurality of supporting elements distributed along a longitudinally oriented or longitudinal strike of said reflector.

Said supporting elements are present below its reflector surface and oriented perpendicularly, or in all cases substantially perpendicularly to said longitudinal strike, in order to allow said reflector and / or said reflector surface to be able to deform in the region of elastic deformations applied to the selected shape and / or material selection, however, while maintaining a stable shape profile.

In order to be able to solve one or more of the technical problems mentioned above, it follows from the present invention in particular that the prior art should be supplemented in such a way that, in addition to the supporting elements mentioned, additional supporting elements are provided, the latter the supporting elements must be made in the form of reflector springs and made with the ability to rely on the reflective surface of the reflector or its surface of the reflector, each Of the supporting elements or springs of the reflector made in the form of a thin wire or thin strip in order to be able to provide movement of the reflector and / or its surface of the reflector, depending on temperature changes, while maintaining the same shape of the reflector surface reflecting sunlight .

According to an embodiment falling within the scope of the present invention, said springs must be bent into a curvilinear shape corresponding to the curvature of the surface of the reflector in order to be able to keep the reflective surface within an optimum shape suitable for reflecting sunlight to a thermal absorption means and / or light energy.

The invention provides for the possibility of compensating for the movements of the reflector and, in particular, its reflector surface in longitudinal strike caused by temperature changes.

In order to maintain the longitudinal edges of the reflector or the surface of the reflector so that they can follow a straight line, such as parallel lines, and in order to provide support for said transparent protection, such as glass or another covering plate, a box-shaped container, the so-called ribbed box, mainly of the type shown in the Swedish utility model patent cited at the beginning.

The longitudinal edges of the ribbed box should then have grooves configured to interact with the corresponding longitudinal edges for relative displacement depending on temperature changes.

Here, the ribbed box should be formed of wood material and / or composite material.

Said reflector springs must be capable of both attaching close to the reflecting surface, preferably with a variable reference pressure, and attaching them as support for said means for absorbing thermal and / or light energy.

The concentration coefficient specified for the reflector must be selected in the range from 4.0 to 3.0.

The orientation of the reflector, including its surface of the reflector, and the said means of absorbing thermal and / or light energy can be mutually adapted so that the incident ray of sunlight at high solstice is focused in the direction of one edge of the product, and also at low solstice it is focused in the direction of the other edge of the product and vice versa.

Said ribbed box may be advantageously fixedly attached to a fixed base.

The curved profile of the reflecting surface in the cross section and along the springs of the reflector is made with the possibility of communication with the function corresponding to the element “CPC” (paraboloric focon).

Next to one of the length-oriented edges of the reflector, directed from the means of absorption of thermal and / or light energy, there is a longitudinal support profile.

Each of the said reflector springs, moreover, must have an inclined part or an inclined projection located adjacent to said supporting profile.

Said reflector surface and said holder and / or supporting part may be integral with each other.

In particular, said reflector springs may be arranged to rest on the reflective surface and its holder with a variable reference pressure so that the central or lower part related to the reflector spring is capable of absorbing or withstanding high pressure or higher pressure, than the end parts of the spring of the reflector, and the end parts are adapted for small or zero reference pressure.

Benefits

Advantages that can primarily be taken into account as the characteristics of the present invention and the particular significant features provided in this way are that conditions have been created so that in a device configured to absorb mainly thermal and / or light energy arising from the received sunlight, and having a reflector reflecting the sun's rays, directed towards the sun's rays, and means for absorbing thermal and / or light energy related to the reflector, etc. whereby said reflector and said means of absorbing heat and / or light energy are covered by a transparent protection, said reflector and, basically, its reflector surface being formed from thin and easily bendable material, to allow the reflector surface of said reflector and its holder to be provided with the ability to interact with a variety of upper supporting elements located side by side, the so-called reflector springs, distributed along oriented in the length or longitudinal strike of said reflector and oriented perpendicularly, or in all cases substantially perpendicularly to said longitudinal strike, in order to allow said reflector including its corresponding reflector surface, depending on the effect of temperature, to be able to deform in the elastic region deformations applied to the selected shape and / or material selection, however, while maintaining a reflection profile of a stable shape.

What, first of all, can be taken into account as the characteristics of the present invention is defined in the characterizing part of claim 1 of the subsequent claims.

Brief Description of the Drawings

The proposed embodiment, having significant features associated with the present invention, will now be illustratively described in more detail with reference to the accompanying drawings, in which:

figure 1 shows in perspective many similar devices according to the present invention, arranged in rows and columns,

figure 2 shows a sectional view of two adjacent devices to provide an illustration of the range of acceptable angle of incident sunlight

figure 3 shows on an enlarged scale one first inner end part of the device having an inserted reflector spring,

figure 4 shows in section one of the edge parts of a device having an inserted reflector spring, which is designed to press the surface of the reflector to the holder and its supporting part with a given curvature of the reflector surface, and

figure 5 shows on an enlarged scale another, opposite with respect to figure 3, the end part of the device.

Description of Preferred Embodiment

Further, as an introduction, it should be emphasized that in the following description of the presently proposed embodiment, showing significant features associated with the invention, and explained by the figures depicted in the following drawings, terms and specific terminology were chosen so that, in this regard, first of all, to make clear the idea of the invention.

However, in this regard, it should be borne in mind that the expressions chosen here should not be understood as limiting only to the terms used and selected here, but it should be understood that each term chosen in this way should be interpreted so that it could also contain all technical equivalents working in the same or essentially the same way in order to achieve the same or essentially the same intent and / or technical effect.

Figure 1-5 schematically and in detail depicts the fundamental conditions of the present invention, and also noted specific significant features associated with the invention, as an example of the proposed embodiment, described in more detail below.

Accordingly, figure 1 shows a device 1 configured to absorb mainly thermal and / or light energy arising from the received sun rays “B1” and the reflected sun rays “B2”, and having a reflector 2 reflecting the sun rays towards sunlight, and means 3 for absorbing thermal and / or light energy related to the reflector 2, said reflector including its reflector surface 2a, and said means 3 for absorbing thermal and / or light energy covered by protection 4, which is transparent to sunlight and serves as a mechanical coating.

Figure 1 shows a lot of identical devices, and, therefore, in the future, the invention will be described only as containing two of the mentioned devices 1, 1 '.

Said reflector 2 and, specifically, its reflector surface 2a are formed of thin and easily bendable material, and the holders 2b or supporting parts support the light reflector surface 2a.

The reflector surface 2a may be located on an aluminum foil having a thickness of, say, 0.3 mm to 0.8 mm, with one surface of the aluminum foil being prepared for these highly reflective properties.

However, the corresponding reflector surface 2a may be polished to a high gloss or subjected to a high gloss finish in other ways in order to be able to exhibit said pronounced retroreflective properties.

Here, the reflector surface 2a is supported by aluminum foil as a holder 2b formed of thin bendable material.

Here, in the present invention, it is proposed that said holder 2b is defined in the form of a metal sheet having a thickness of 0.2 mm to 1.5 mm.

Mentioned reflector 2 and, specifically, holder 2b should be configured to interact with a plurality of separate overlying supporting elements 5, referred to herein as “reflector springs”.

They must then be distributed along the lengthwise or longitudinal strike of said reflector 2 and oriented perpendicularly, or in all cases substantially perpendicularly to said longitudinal strike “L”, in order to allow said reflector 2 including its reflector surface 2a and the holder 2b, depending on the effect of temperature, be able to deform in the region of elastic deformations applied to the selected shape and / or selection of material, however, at the same time I am keeping the profile stable in shape.

Each of the said supporting elements or springs 5, 5a and 5b of the reflector is made in the form of a thin wire or thin strip in order to be able to provide movement or displacement of the reflector 2 and its reflector surface 2a, including a holder 2b, depending on temperature changes, at the same time maintaining the same shape of the reflector surface reflecting the sun's rays.

Said reflector springs 5, 5a, 5b are permanently bent into a curvilinear shape in order to be able to keep the reflector surface 2a and its holder 2b within an optimal shape suitable for reflecting sunlight in the direction of the thermal and / or light energy absorbing means 3.

Changes in temperature, which should be expected, mainly cause the movement or displacement of the reflector 2, including its reflector surface 2a, in the longitudinal strike “L”.

To support the longitudinal edges of the reflector 2, such as the edge 2C, so that they follow a straight line, such as parallel lines, and also in order to provide support for the aforementioned transparent protection 4, such as glass or another covering plate, the use of box-shaped container 6, the so-called ribbed box.

The longitudinal edges of the ribbed box 6 have grooves configured to interact with the corresponding longitudinal edges of the reflector 2 and / or the edges of the surface 2a of the reflector.

The ribbed box 6 is usually formed of wood material and / or composite material.

Said reflector springs 5, 5a, 5b are configured to both attach to the reflector surface 2a and to attach heat and / or light energy absorption means 3 as support.

Here, the idea of the invention is that said reflector springs 5, 5a, 5b must support the reflector surface 2a on their variable pressure holder 2b. More specifically, the idea is that the lower part 5 'of the reflector spring 5 should absorb or withstand the highest pressure, while the end parts 5 ”, (5”) of the reflector spring 5 should have a low or zero reference pressure.

The concentration coefficient “c” set for the reflector 2 and the reflector surface 2a is selected in the range from 4.0 to 3.0, moreover, in FIG. 2, with a selected measurement designation, a value of 3.34 is proposed.

The orientations of the reflector 2, including its reflector surface 2a, and the said heat and / or light energy absorption means 3 are mutually adapted so that the incident “B3” ray of sunlight at high solstice (zenith) is focused in the direction of the front (right) edges 3a of the means 3, as well as the incident ray “B4” of sunlight at low solstice, was focused in the direction of the rear (left) edge 3b of the means 3 with an angle range from 90 ° to 30 °.

Then, said ribbed box 6 should basically be attached to the fixed base 16 by means of essentially selected known means.

The curved profile of the reflector surface 2a in cross section and along the reflector springs 5, 5a, 5b is configured to communicate with a function corresponding to the “CPC” (paraboloric focon) structure.

Next to the longitudinally oriented edge 2c of the reflector 2, directed from the means 3 for absorbing thermal and / or light energy, there is a longitudinal supporting profile 6a (Fig. 4).

Moreover, it is proposed that each of said reflector springs 5, 5a, 5b may have an inclined portion 15 or an inclined protrusion adjacent to said supporting profile 6a in order to guarantee a reduction in the reference pressure applied here.

The invention, of course, is not limited to the embodiment given above by way of example, but may be modified within the scope of the general idea of the invention described in the following claims.

In particular, it should be borne in mind that each item and / or category shown can be combined with any other item and / or category shown within the scope in order to achieve the desired technical result.

Claims (17)

1. The device (1), made with the possibility of absorption, mainly of thermal and / or light energy arising from the received sunlight ("B1", "B2"), and having a reflector reflecting the sun's rays, the reflector (2) directed towards the sun rays, and means (3) for absorbing thermal and / or light energy related to the reflector (2), moreover, the reflector (2) and the said means (3) for absorbing thermal and / or light energy are covered by a transparent protection (4), and the surface (2a) the reflector of said reflector is formed of thin and the bendable material, in addition, the reflector (2) and its reflector surface (2a) are configured to interact with a plurality of supporting elements (2b) distributed along the lengthwise or longitudinal strike (“L”) reflector (2) and located under its reflector surface (2a), as well as oriented perpendicularly or in all cases, essentially perpendicular to the longitudinal strike (“L”) in order to allow the reflector (2) and / or the reflector surface (2a), depending on the effect of temperature to be able to deform in the region of elastic deformations applied to the selected shape and / or choice of material, however, while maintaining a stable shape profile, characterized in that in addition to the lower supporting elements (2b) there are additional supporting elements (5, 5a, 5b), the last supporting elements being made in the form of reflector springs (5) and made with the possibility of leaning on the reflective surface of the reflector (2) or its reflector surface (2a), each of which is additional the retaining elements or springs (5) of the reflector is made in the form of a thin wire or thin strip in order to be able to provide movement or displacement of the reflector and / or its surface of the reflector, depending on temperature changes, while maintaining the same shape of the reflector surface ( 2a), reflecting the sun's rays. 2. The device according to claim 1, characterized in that each of the springs (5) is bent into a curved shape in order to be able to keep the reflecting surface within the optimal shape, suitable for reflecting sunlight to a means of absorption of thermal and / or light energy . 3. The device according to claim 1 or 2, characterized in that the occurring temperature changes cause movement of the reflector, including the reflecting surface and / or its surface (2a) of the reflector, mainly in longitudinal strike. 4. The device according to claim 1, characterized in that for supporting the longitudinal edges of the reflector so that they can follow a straight line, such as parallel edges or lines, and also in order to provide support for said transparent protection, such as glass or another covering plate, the use of a box-shaped container formed in the form of a box, the so-called ribbed box, is provided. 5. The device according to claim 4, characterized in that the longitudinal edges provided by the ribbed box have grooves configured to interact with the corresponding longitudinal edges of the reflective surface or reflector surface (2a). 6. The device according to claim 4, characterized in that the ribbed box is formed of a wooden material and / or composite material. 7. The device according to claim 1, characterized in that each of the reflector springs (5) is configured to both attach to and support the reflective surface (2a), and to attach thermal and / or thermal absorption means (3) as a support light energy. 8. The device according to claim 1, characterized in that the concentration coefficient specified for the reflector (2) is selected in the range from 4.0 to 3.0. 9. The device according to claim 1 or 8, characterized in that the orientation of the reflector (2), including its reflector surface (2a), and said means (3) for absorbing thermal and / or light energy are mutually adapted so that the incident a ray of sunlight at a low solstice was focused in the direction of one edge of the tool, and also at a high solstice was focused in the direction of the other edge of the said tool. 10. The device according to claim 4, characterized in that said ribbed box is fixedly attached to a fixed base. 11. The device according to claim 1 or 2, characterized in that the curved profile of the reflecting surface, as seen in cross section and along the springs (5) of the reflector, is configured to perform a function corresponding to the parabolotric focon. 12. The device according to claim 1, characterized in that a longitudinal support profile is present next to one of the lengthwise oriented edges of the reflector directed from the means of absorption of thermal and / or light energy. 13. The device according to claim 1, characterized in that each of the said reflector springs has an inclined part or an inclined projection (15) located next to the supporting elements (2b). 14. The device according to p. 12, characterized in that the said surface (2A) of the reflector and the holder and / or supporting part are made in one piece with each other. 15. The device according to claim 1 or 2, characterized in that the reflector springs (5, 5a, 5b) are arranged to rest on the reflective surface (2a) with a variable reference or pressure. 16. The device according to claim 1, characterized in that the middle or lower part (5 ') related to the spring of the reflector is configured to absorb or withstand the highest pressure or greater pressure than the end parts (5' ', (5' ')) reflector springs. 17. The device according to clause 16, characterized in that the end parts are adapted for small or zero reference pressure.

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